KR200348196Y1 - The contructing a building we are insulating material which heat reflects possible - Google Patents

Abstract

The present invention relates to a heat insulating material for building materials.

The present invention prevents corrosion due to chemical reactions in contact with cement, moisture, and disinfecting chemicals by constructing a multi-layered heat reflection insulating material applying aluminum sheet and sticker attachment method to form an independent air layer on its own. Of course, the present invention provides a heat insulating building material capable of heat reflection that can further improve the workability and durability of the insulation while reducing the conductivity.

Description

The contructing a building we are insulating material which heat reflects possible}

The present invention relates to a heat insulating material for building materials, and more particularly to a heat insulating material for heat reflection that can improve the workability and durability by using the reflection principle of aluminum.

As is well known, the floor and the wall or ceiling surface of the building is installed with a heat insulating material to reduce the heat loss or heat inflow to the outside, this type of heat insulating material in the form of an air cap made of double-sided silver foil Insulation is provided.

However, when the air cap-type insulation of the double-sided silver foil is installed on a wall surface of a building, conduction occurs due to contact with the wall surface, and thus, it is difficult to bond work, and inconvenience of having to use a separate subsidiary material for seam processing.

In addition, the air cap-type heat insulating material made of double-sided silver foil uses aluminum silver foil, crosslinked heat insulation, adhesives, and the like, and thus does not have an air layer, thereby preventing a reflective space, and providing a more comfortable indoor environment because it cannot provide waterproof and soundproofing. It had no structural drawbacks.

Therefore, the present invention was devised to solve the conventional problems as described above, the present invention, by forming a heat-reflective insulating material of a multi-layered structure applying the aluminum thin plate and sticker attachment method to form an independent air layer itself, cement or The purpose of the present invention is to provide a thermal insulation capable of heat reflection to prevent corrosion due to chemical reactions in contact with moisture and disinfecting chemicals and to further improve the workability and durability of the insulation while reducing conductivity.

1 is an exploded view showing a structure of a heat insulating material capable of heat reflection as an embodiment of the present invention.

Figure 2 is a cross-sectional view showing the structure of the heat insulating material capable of heat reflection in one embodiment of the present invention.

Figure 3 is a heat input flow chart of the building construction the heat insulator as an embodiment of the present invention.

Figure 4 is a condensation phenomenon flow chart of the building construction is insulated as an embodiment of the present invention.

5 is a heat loss flow chart of the building in which the insulation is constructed in one embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10; Base sheet 11; Adhesive layer

12; Backing layer 13; First aluminum sheet

14; Air-forming sheet layer 15; 2nd aluminum lamination layer

16; Ultraviolet coating layer 100; Building insulation

Hereinafter, a preferred embodiment of the present invention based on the accompanying drawings.

1 is an exploded view showing a structure of a heat insulating material for heat reflection as an embodiment of the present invention, Figure 2 is a cross-sectional view showing the structure of a heat insulating material for heat reflection as an embodiment of the present invention.

3 is a heat input flow diagram of a building in which the insulation is constructed as an embodiment of the present invention, Figure 4 is a flow diagram of the condensation phenomenon of the building is constructed as an embodiment of the present invention, Figure 5 is an embodiment of the present invention An example is the heat loss flow chart for a building with insulation.

1 to 5, in the building insulation material 100 to which the base sheet 10 made of flexible foam is applied,

On the other side of the base sheet 10 to form an adhesive layer 11 to enable the construction of the heat insulating material 100 by an attachment method,

The backing layer 12 is formed on the adhesive layer 11,

One surface of the base sheet 10 is formed by depositing a first aluminum thin film layer 13 for heat reflection,

In the first aluminum thin plate 13, an air forming sheet layer 14 including a sheet portion 14a and a plurality of cell portions 14b is formed to form an air layer.

The air forming sheet layer 14 is characterized in that the second aluminum thin film layer 15 for heat reflection is formed.

According to another aspect, on the surface of the second aluminum thin plate layer 15, the ultraviolet coating layer 16 for preventing corrosion of the heat insulating material 100 is formed.

Referring to Figures 1 to 5 attached to the operation of one embodiment of the present invention configured as described above are as follows.

First, the building insulation 100 forms the adhesive layer 11 on the other surface of the base sheet 10, and then the adhesive layer 11 is covered with the backing paper layer 12.

At this time, the base sheet 10 forms a myriad of micropores therein to prevent the heat loss or heat flowing into the room due to the heat insulation of the air in the micropores polyethylene (polyethylene) or acrylic ( Acrylic or expanded polystyrene is formed into a flexible foam made of about 4 mm thick.

Here, the base sheet 10 may use a non-woven fabric (non-woven fabric) that can replace the foam, but is not necessarily limited to this.

Subsequently, a first aluminum thin film layer 13 made of aluminum having a purity of 99.6% is deposited on one surface of the base sheet 10, while an air forming sheet layer 14 is attached to the first aluminum thin film 13. In addition, a second aluminum sheet layer 15 made of aluminum having a purity of 99.6% is attached to the air forming sheet layer 14.

Then, the first and second aluminum thin layers 13 and 15 reflect heat when the construction of the heat insulating material 100 is made, and the air forming sheet layer 14 is the first and second aluminum thin layers. While forming an air layer (13) and (15), the heat insulation of the air layer is to block the heat loss to the outside or the heat flowing into the room together with the base sheet 10 above.

That is, the first aluminum thin plate layer 13 is excellent in moisture resistance, corrosion resistance, and flame retardancy, which not only blocks moisture, but also reflects or blocks heat by its own heat reflection action.

The air-forming sheet layer 14 is deposited over the upper side of the first aluminum thin plate layer 13, which is formed at a close interval between the sheet portion 14a and the upper portion of the sheet portion 14a. It was configured to consist of the cell (14) of the cell (14).

In addition, when the ultraviolet coating layer 16 is formed on the surface of the second aluminum thin plate layer 15, the building insulation 100 may be completed.

In this case, the ultraviolet coating layer 16 is to prevent the corrosion generated when the building insulation 100 is in contact with the cement, as well as gas when the construction of the heat insulating material 100 is made.

In other words, the first and second aluminum sheet layers 13 and 15 constituting the building insulation material 100 reflect the radiant heat to 93 to 97% in the summer and out in the winter, thereby preventing the radiant heat as shown in FIG. 3. By providing a comfortable indoor environment, as well as effectively block the heat loss of the room due to radiant heat as shown in Figure 4 to block moisture and harmful waves, as shown in Figure 5 to condensation of interior materials such as roofs and walls in winter It can be prevented.

On the other hand, the construction heat insulating material 100, the construction is made by the adhesive layer 11, the adhesive layer 11 has a feature of reducing the conductivity.

As described above, the present invention constitutes a multi-layered heat reflection insulating material applying aluminum sheet and sticker attachment method to form an independent air layer by itself, and thus corrosion due to chemical reaction when it comes into contact with cement or moisture and disinfectant chemicals. Of course, it provides an effect of further improving the workability and durability of the insulation while reducing the conductivity.

The present invention is not limited to the above-described specific preferred embodiment, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (2)

In the building heat insulating material to which the base sheet made of flexible foam is applied, On the other side of the base sheet to form an adhesive layer to enable the construction of the heat insulating material by the attachment method, The adhesive layer forms a backing paper layer, One surface of the base sheet is formed by depositing a first aluminum thin film layer for heat reflection, In the first aluminum thin plate to form an air forming sheet layer consisting of a sheet portion and a plurality of cell portions to form an air layer, In the air-forming sheet layer is a heat insulating building material capable of heat reflection, characterized in that to form a second aluminum sheet for heat reflection. The surface of the second aluminum thin plate layer, A heat insulating building material capable of heat reflection, characterized by forming a UV coating layer for preventing corrosion of the heat insulating material.